The root problem is that
ipython plays weird tricks with
__main__ (through its own
FakeModule module) so that, by the time
doctest is introspecting that "alleged module" through its
Foo is NOT there -- so doctest doesn't recurse into it.
Here's one solution:
if __name__ in ("__main__", "__console__"):
import doctest, inspect, sys
m = sys.modules['__main__']
m.__test__ = dict((n,v) for (n,v) in globals().items()
This DOES produce, as requested:
$ ipython dot.py
1 items had no tests:
1 items passed all tests:
1 tests in __main__.__test__.Foo
1 tests in 2 items.
1 passed and 0 failed.
Python 2.5.1 (r251:54863, Feb 6 2009, 19:02:12)
[[ snip snip ]]
Just setting global
__test__ doesn't work, again because setting it as a global of what you're thinking of as
__main__ does NOT actually place it in the
__dict__ of the actual object that gets recovered by
m = sys.modules['__main__'], and the latter is exactly the expression
doctest is using internally (actually it uses
sys.modules.get, but the extra precaution is not necessary here since we do know that
__main__ exists in
sys.modules... it's just NOT the object you expect it to be!-).
Also, just setting
m.__test__ = globals() directly does not work either, for a different reason:
doctest checks that the values in
__test__ are strings, functions, classes, or modules, and without some selection you cannot guarantee that
globals() will satisfy that condition (in fact it won't). Here I'm selecting just classes, if you also want functions or whatnot you can use an
or in the
if clause in the genexp within the
I don't know exactly how you're running a Django shell that's able to execute your script (as I believe
python manage.py shell doesn't accept arguments, you must be doing something else, and I can't guess exactly what!-), but a similar approach should help (whether your Django shell is using ipython, the default when available, or plain Python): appropriately setting
__test__ in the object you obtain as
__console__, if that's what you're then passing on to doctest.testmod, I guess) should work, as it mimics what doctest will then be doing internally to locate your test strings.
And, to conclude, a philosophical reflection on design, architecture, simplicity, transparency, and "black magic"...:
All of this effort is basically what's needed to defeat the "black magic" that ipython (and maybe Django, though it may be simply delegating that part to ipython) is doing on your behalf for your "convenience"... any time at which two frameworks (or more;-) are independently doing each its own brand of black magic, interoperability may suddenly require substantial effort and become anything BUT convenient;-).
I'm not saying that the same convenience could have been provided (by any one or more of ipython, django and/or doctests) without black magic, introspection, fake modules, and so on; the designers and maintainers of each of those frameworks are superb engineers, and I expect they've done their homework thoroughly, and are performing only the minimum amount of black magic that's indispensable to deliver the amount of user convenience they decided they needed. Nevertheless, even in such a situation, "black magic" suddenly turns from a dream of convenience to a nightmare of debugging as soon as you want to do something even marginally outside what the framework's author had conceived.
OK, maybe in this case not quite a nightmare, but I do notice that this question has been open a while and even with the lure of the bounty it didn't get many answers yet -- though you now do have two answers to pick from, mine using the
__test__ special feature of doctest, @codeape's using the peculiar
__IP.magic_run feature of ironpython. I prefer mine because it does not rely on anything internal or undocumented --
__test__ IS a documented feature of doctest, while
__IP, with those two looming leading underscores, scream "deep internals, don't touch" to me;-)... if it breaks at the next point release I wouldn't be at all surprised. Still, matter of taste -- that answer may arguably be considered more "convenient".
But, this is exactly my point: convenience may come at an enormous price in terms of giving up simplicity, transparency, and/or avoidance of internal/undocumented/unstable features; so, as a lesson for all of us, the least black magic &c we can get away with (even at the price of giving up an epsilon of convenience here and there), the happier we'll all be in the long run (and the happier we'll make other developers that need to leverage our current efforts in the future).